Novius 2D-3D Imaging
2026-07-07 00:59:19

Novius Collaborates to Innovate Real-Time 2D-3D Imaging Support Technology

Novius Collaborates to Innovate Real-Time 2D-3D Imaging Support Technology



On June 24, 2026, Novius Inc., a pioneering AI technology company located in Hachioji, Tokyo, announced its collaboration with the National Cancer Center and Asahi Central Hospital, both based in Japan, to apply for a joint patent related to real-time 2D-3D imaging support systems. This innovative technology is expected to change the landscape of intraprocedural imaging in medical practices.

Background of Innovation


The patient care environment is evolving, with a rising demand for superior imaging technologies, especially within the fields of interventional radiology (IVR) and minimally invasive treatments. Traditional imaging practices often rely on 3D DSA (3D Digital Subtraction Angiography) and CBCT (Cone-Beam CT). However, these methodologies come with challenges; acquiring and aligning 3D images with real-time surgical images can take a significant amount of time, often dozens of seconds. This delay can be detrimental to patient outcomes, underscoring the need for quicker, more efficient imaging solutions.

The newly developed imaging support technology leverages 2D images acquired during surgical procedures to rapidly generate and present three-dimensional spatial information. This advancement addresses the pressing challenges associated with visualizing the complex structures encountered during intricate surgeries — particularly, multifaceted vascular branches that are difficult to comprehend with 2D images alone. Surgeons require exceptional experience and spatial awareness to navigate these complexities effectively.

Reasons for Joint Patent Application


The collaboration among Novius, the National Cancer Center, and Asahi Central Hospital began in September 2024, focusing on exploring a new generation of intraprocedural imaging assistance technologies. The researchers aim to accurately estimate and visualize 3D structures in real-time, promoting a seamless integration with clinical workflows that will enable healthcare providers to make informed decisions swiftly. This involves tackling challenges such as organ movement due to patient breathing and overlapping anatomical structures, which complicate the interpretation of 2D images.

Future Directions


As the patent process moves forward, the research teams plan to continue evaluating the performance and clinical utility of this innovative support technology. They envision applications extending beyond IVR into the realms of surgical navigation and beyond. Insights generated from this technology are expected to pave the way for collaborations with medical device manufacturers, enabling the effective deployment of these breakthroughs across various healthcare jurisdictions.

Moreover, the collaboration aspires to integrate this technology into diverse medical fields, including endoscopic ultrasound (EUS) and endobronchial ultrasound (EBUS), thereby expanding its reach and utility.

Conclusion


By enhancing the spatial awareness of surgeons, this groundbreaking technology not only aims to improve diagnostic and treatment precision but also seeks to alleviate the pressures faced in clinical environments. The successful implementation of this patent will mark a significant milestone in medical imaging, benefiting numerous specialties across the healthcare sector.

About Novius


Novius Inc. was founded in 2016 and specializes in researching and developing medical imaging and AI technologies. The company is at the forefront of creating next-generation industrial imaging technologies and diagnostic support platforms, utilizing advanced computer vision and real-time transformation techniques.

For further inquiries regarding this patent and technology, please contact:

Novius Inc.
Address: 306 Cambridge Building, 3-2-13 Minamino, Hachioji, Tokyo, Japan
Phone: 042-683-1178
Email: [email protected]


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Topics Health)

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